Does Hormone Treatment Predispose Patients To Breast Cancer? Medical News Today (press release), UK - Nov 22, 2008 The cell then behaves as if it had no BRCA1 gene, without involving a mutation (unlike hereditary forms, where the BRCA1 gene undergoes an alteration). ...
Better treatment offers new hope for patients Gulf Times, Qatar - Nov 9, 2008 ?There is concern that OCP may increase the risk of breast cancer in mutation carriers, particularly with BRCA1 - a common inherited gene and this risk will ...
Endocrinology & Metabolism News Journal of Clinical Endocrinology and Metabolism, MD - Nov 5, 2008 (J Biol Chem [published online September 9, 2008]) A case?control study of 472 postmenopausal women with a BRCA1 mutation found that hormone therapy was not ...
Breast cancer in men Daily Sun, Nigeria - Nov 17, 2008 Though, the cause of breast cancer is still unknown, two genes, BRCA1 and BRCA2, have reportedly accounted for at least 80 percent of the breast cancer in ...
A Gene Expression Map for Caenorhabditis elegans - SK Kim, J Lund, M Kiraly, K Duke, M Jiang, JM … - Science, 2001 - sciencemag.org ... 24, 133, 0.37, Amino acid metabolism (3.9?); lipid metabolism (8.5 ... cluster in the
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Influence of Life Stress on Depression: Moderation by a Polymorphism in the 5-HTT Gene - A Caspi, K Sugden, TE Moffitt, A Taylor, IW Craig, … - Science, 2003 - sciencemag.org ... a browser that does not support current Web standards ... that variations in the 5-HTT gene moderate psycho ... the predicted direction (b = ?0.89, SE = 0.37, t = 2.39 ...
Genetic Restriction of AIDS Pathogenesis by an SDF-1 Chemokine Gene Variant - C Winkler, W Modi, MW Smith, GW Nelson, X Wu, M … - Science, 1998 - sciencemag.org ... a browser that does not support current Web standards ... for SDF1 versus CCR from Table
1 equals 0.37:0.64 for ... than do patients with only single-gene protection (P ...
[PDF]A gene expression database for the molecular pharmacology of cancer - U Scherf, DT Ross, M Waltham, LH Smith, JK Lee, L … - Nat Genet, 2000 - embnet.cl ... many different laboratories, as compiled at the DTP web site (http ... MDA MB435 and
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the PNAS web site, www ... the human homologue of the yeast CDC47 gene (MCM2), MCM3 ...
[PDF]2 ForageValue R Hathaway, G Pirelli - extension.oregonstate.edu ... Ron Hathaway and Gene Pirelli Page 2. ... Phone: 541-737-3431. Web: http://osu.orst.
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available on the Genethon web site. ... D10S185 2.11 2.07 1.93 1.74 1.33 0.87 0.37...
Corpus Callosum Atrophy Is a Possible Indicator of Region-and Cell Type-Specific Neuronal … - H Hampel, SJ Teipel, GE Alexander, B Horwitz, D … - Archives of Neurology, 1998 - Am Med Assoc ... your Web browser does not support basic Web standards ... Harald Hampel, MD ; Stefan
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BRCA1 gene found to control activity of estrogen and progesterone
It's known that the breast cancer susceptibility gene BRCA1 regulates use of estrogen in breast and other cells, but now researchers at Georgetown University Medical Center have discovered that it also controls activity of a second sex steroid hormone, progesterone.
The findings, conducted in cell culture and in mice and reported by the researchers in the Molecular Endocrinology, could help explain why women who have mutations in their BRCA1 gene are susceptible to a number of different " hormone-dependent " cancers, including those of the breast, endometriun and cervix.
It also has implications for ordinary cancers that arise because a normal BRCA1 gene is under-expressed, said the study's principal investigator, Eliot Rosen, at the Lombardi Comprehensive Cancer Center.
For example, he says that up to 40 percent of breast tumors are deficient in BRCA1, "and it may be that some patients could benefit not only from an anti-estrogen therapy, but also from an anti-progesterone agent.
The BRCA1 gene and a second gene, BRCA2, were discovered to be breast cancer susceptibility genes in 1994 and 1995, respectively. Women who inherit faulty copies of one of these genes have up to an 80 percent increased risk of developing breast cancer by age 70, and are also more likely to be diagnosed with ovarian cancer.
Rosen and his research team undertook the study to understand why loss of the BRCA1 gene results in cancers in tissues that are dependent on hormones. They focused on the progesterone hormone, in part, because of the observation that women who use hormone replacement therapy that includes both estrogen and progestin are at greater risk of developing breast cancer than women who use only estrogen replacement.
The use of progesterone in the breast is tightly regulated and is primarily activated when growth in cells is needed, such as during the female menstrual cycle and to support a pregnancy. A cell's use of progesterone and other such hormones is controlled by specific receptor proteins, located inside cells, which bind on to the hormone. This process activates the receptor, which then migrates to the cell nucleus to stimulate gene expression.
To find out what role BRCA1 played in progesterone receptor signaling, the Lombardi research team conducted a series of experiments. In one set of cell culture studies in the laboratory, they used breast cancer cells that were responsive to progesterone, and then genetically manipulated them to either over or under-express the BRCA1 gene in order to assess the gene's effect on progesterone receptor signaling.
They also used mice in which the BRCA1 gene was partially deleted, but only in breast tissue. The animals were treated with estrogen, or progesterone, or both, and response of the mammary gland was compared with that of normal mice.
In this way, the researchers concluded that BRCA1 interacts physically with the progesterone receptor, and stops it from activating other genes. It does this even in the absence of the progesterone hormone, and, thus, acts as a strong check on errant growth.
" But in mice deficient in BRCA1, we found that estrogen plus progesterone has a particularly large effect in stimulating the growth of mammary epithelial cells - an effect much greater than the effects of either hormone used alone," Rosen said.
Source: Georgetown University Medical Center, 2006
